Greta Radaelli scite author profile

Interfacial magnetoelectric coupling is a viable path to achieve electrical writing of magnetic information in spintronic devices. For the prototypical Fe/BaTiO3 system, only tiny changes of the interfacial Fe magnetic moment upon reversal of the BaTiO3 dielectric polarization have been predicted so far. Here, by using X-ray magnetic circular dichroism in combination with high resolution electron microscopy and first principles calculations, we report on an undisclosed physical mechanism for interfacial magnetoelectric coupling in the Fe/BaTiO3 system. At this interface, an ultrathin oxidized iron layer exists, whose magnetization can be electrically and reversibly switched on-off at room-temperature by reversing the BaTiO3 polarization. The suppression / recovery of interfacial ferromagnetism results from the asymmetric effect that ionic displacements in BaTiO3 produces on the exchange coupling constants in the interfacial oxidized Fe layer. The observed giant magnetoelectric response holds potential for optimizing interfacial magnetoelectric coupling in view of efficient, low-power spintronic devices.

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COVID-19 mortality and ICU admission: the Italian experience

Immovilli

Morelli

Antonucci

et al. 2020

Crit Care

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Large Room‐Temperature Electroresistance in Dual‐Modulated Ferroelectric Tunnel Barriers

et al. 2015

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Pt/BaTiO3/La0.7Sr0.3MnO3 tunnel junctions, at negative voltage bias, for two polarization directions are represented. It is demonstrated that reversing the polarization direction of a ferroelectric barrier in a tunnel junction leads to a change of junction conductance and capacitance, with concomitant variations on the barrier height and effective thickness, both contributing to produce larger electroresistance.

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Enabling alternative ethylene production through its selective adsorption in the metal–organic framework Mn₂(m-dobdc)

Bachman

Reed

Kapelewski

et al. 2018

Energy Environ. Sci.

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Greta Radaelli

Electric control of magnetism at the Fe/BaTiO3 interface

COVID-19 mortality and ICU admission: the Italian experience

Large Room‐Temperature Electroresistance in Dual‐Modulated Ferroelectric Tunnel Barriers

Enabling alternative ethylene production through its selective adsorption in the metal–organic framework Mn₂(m-dobdc)

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Greta Radaelli

Electric control of magnetism at the Fe/BaTiO3 interface

COVID-19 mortality and ICU admission: the Italian experience

Large Room‐Temperature Electroresistance in Dual‐Modulated Ferroelectric Tunnel Barriers

Enabling alternative ethylene production through its selective adsorption in the metal–organic framework Mn2(m-dobdc)

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Enabling alternative ethylene production through its selective adsorption in the metal–organic framework Mn₂(m-dobdc)